It is an assumption...an extremely wild, unrealistic, not even on the planet kind of assumption, but an assumption nonetheless.minger said:...assuming that the afterburner doesn't consume any additional fuel?
minger said:...assuming that the afterburner doesn't consume any additional fuel?
Jet exhaust velocity is the speed at which the exhaust gases from a jet engine are expelled from the back of the engine. It is measured in meters per second (m/s) or feet per second (ft/s).
Turbojet engines have higher jet exhaust velocity compared to turbofan engines. This is because turbojet engines have a simpler design and all the air passing through the engine is used for combustion, resulting in a higher velocity exhaust. On the other hand, turbofan engines have a larger bypass ratio which diverts some of the air around the engine, resulting in a lower exhaust velocity.
A high jet exhaust velocity allows for better engine performance, including a greater thrust force and faster acceleration. It also allows for the jet to fly at higher altitudes and speeds, increasing its overall efficiency and range.
Jet exhaust velocity plays a significant role in the fuel efficiency of an aircraft. Generally, a higher exhaust velocity results in better fuel efficiency as it allows the aircraft to fly at higher altitudes and speeds, where the air is thinner and there is less drag. However, other factors such as engine design and airframe design also play a role in determining fuel efficiency.
Yes, jet exhaust velocity can be controlled by adjusting the amount of fuel and air mixture entering the engine, as well as the design of the engine's exhaust nozzle. This allows for the pilot to control the thrust force and speed of the aircraft as needed.